Mapping propped fractures in a well using encapsulated salt

What is claimed is: 1. A system comprising: a processing device; a memory device on which instructions are stored that are executable by the processing device to: receive sensor data representing a response of an electromagnetic field to an electrical current applied to a subterranean formation of a well site that includes one or more propped fractures in which a mixture is positioned, the mixture including proppant and an electrically conductive solution formed from encapsulated salt; determine a position of the electrically conductive solution in the subterranean formation based on the sensor data; determine geometry and position of one or more propped fractures in the subterranean formation based on the position of the electrically conductive solution; and a pumping system configured to encapsulate the salt on-the fly at the well site with an oleophilic material. 2. The system of claim 1 , further comprising one or more sensors communicatively coupled to the processing device for reading the sensor data based on the response of the electromagnetic field to the electrical current, wherein the instructions that are executable to determine the geometry and positioning of the one or more propped fractures are executable to: determine a position of the electrically conductive solution based on the sensor data; and map the one or more propped fractures by calculating a model of the subterranean formation that indicates a size, shape, or location of the one or more propped fractures based on the position of the electrically conductive solution. 3. A method comprising: determining information about an electromagnetic field transmitted from a well that includes a wellbore formed through a subterranean formation and one or more hydraulically induced fractures in which fluid, proppant, and an electrically conductive solution formed from encapsulated salt are positioned to form a propped fracture proximate to another wellbore; receiving sensor data representing a response of the electromagnetic field to an electrical current applied to the subterranean formation; determining a position of the electrically conductive solution in the well based on the sensor data; determining geometry and position of one or more propped fractures in the subterranean formation based on the position of the electrically conductive solution; causing a pumping system to inject the encapsulated salt into the wellbore with the proppant as part of a treatment fluid for forming the propped fracture, further comprising one of: (a) causing the pumping system to encapsulate the salt on-the fly at a well site with a non-permeable coating to produce the encapsulated salt, (b) causing the pumping system to combine the encapsulated salt with the proppant to be added to the treatment fluid; and wherein encapsulating the salt further comprises: causing the pumping system to melt an oleophilic material to a non-solid state; causing the pumping system to coat salt particles with melted oleophilic material by passing the salt particles through the melted oleophilic material; and causing the pumping system to cool the salt particles such that the melted oleopilic material solidifies. 4. The method of claim 3 , wherein the proppant occupies a greater volume than the encapsulated salt, and wherein causing the pumping system to encapsulate the salt on-the fly at a well site with a non-permeable coating further comprises encapsulating the salt with at least one of a polycarbonate, polylactic acid, polyester, co-polymers of styrene or methyl methacrylate, t-butyl amino ethyl methacrylate, homopolymer or copolymer of ethylene, propylene, isobutylene, vinyl chloride, or vinylidene chloride, copolymers of styrene and butadiene, copolymers of vinylidene chloride, homo or copolymers of epoxide, polycarbonate, ethylene oxide, or propylene oxide to form the encapsulated salt. 5. The method of claim 3 , wherein causing the pumping system to inject the encapsulated salt into wellbore comprises: obtaining pre-encapsulated salt and transporting it to a well site; and causing the pumping system to combine the pre-encapsulated salt with the proppant to be added to the treatment fluid. 6. The method of claim 3 , wherein causing the pumping system to inject the fluid into the wellbore further comprises determining after a period of time that the encapsulated salt has ruptured, degraded, or dissolved such that the salt is exposed. 7. The method of claim 3 , further comprising applying the electrical current to the subterranean formation, wherein determining the geometry and position of the one or more propped fractures comprises: determining a position of the proppant based on the position of the electrically conductive solution; and mapping the propped fracture by calculating a model of the subterranean formation that indicates a size, shape, or location of the propped fracture based on the position of the proppant.